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Kim, Taeho,Momin, Eric,Choi, Jonghoon,Yuan, Kristy,Zaidi, Hasan,Kim, Jaeyun,Park, Mihyun,Lee, Nohyun,McMahon, Michael T.,Quinones-Hinojosa, Alfredo,Bulte, Jeff W. M.,Hyeon, Taeghwan,Gilad, Assaf A. American Chemical Society 2011 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY - Vol.133 No.9
<P/><P>Mesoporous silica-coated hollow manganese oxide (HMnO@mSiO<SUB>2</SUB>) nanoparticles were developed as a novel <I>T</I><SUB>1</SUB> magnetic resonance imaging (MRI) contrast agent. We hypothesized that the mesoporous structure of the nanoparticle shell enables optimal access of water molecules to the magnetic core, and consequently, an effective longitudinal (<I>R</I><SUB>1</SUB>) relaxation enhancement of water protons, which value was measured to be 0.99 (mM<SUP>−1</SUP>s<SUP>−1</SUP>) at 11.7 T. Adipose-derived mesenchymal stem cells (MSCs) were efficiently labeled using electroporation, with much shorter <I>T</I><SUB>1</SUB> values as compared to direct incubation without electroporation, which was also evidenced by signal enhancement on <I>T</I><SUB>1</SUB>-weighted MR images in vitro. Intracranial grafting of HMnO@mSiO<SUB>2</SUB>-labeled MSCs enabled serial MR monitoring of cell transplants over 14 days. These novel nanoparticles may extend the arsenal of currently available nanoparticle MR contrast agents by providing positive contrast on <I>T</I><SUB>1</SUB>-weighted images at high magnetic field strengths.</P>
Kim, Jung‐,Hyun,Kurtz, Andreas,Yuan, Bao‐,Zhu,Zeng, Fanyi,Lomax, Geoff,Loring, Jeanne F.,Crook, Jeremy,Ju, Ji Hyeon,Clarke, Laura,Inamdar, Maneesha S.,Pera, Martin,Firpo, Meri T.,Sheldon, John Wiley and Sons Inc. 2017 Stem cells translational medicine Vol.6 No.11
<P><B>Abstract</B></P><P>This article summarizes the recent activity of the International Stem Cell Banking Initiative (ISCBI) held at the California Institute for Regenerative Medicine (CIRM) in California (June 26, 2016) and the Korean National Institutes for Health in Korea (October 19–20, 2016). Through the workshops, ISCBI is endeavoring to support a new paradigm for human medicine using pluripotent stem cells (hPSC) for cell therapies. Priority considerations for ISCBI include ensuring the safety and efficacy of a final cell therapy product and quality assured source materials, such as stem cells and primary donor cells. To these ends, ISCBI aims to promote global harmonization on quality and safety control of stem cells for research and the development of starting materials for cell therapies, with regular workshops involving hPSC banking centers, biologists, and regulatory bodies. Here, we provide a brief overview of two such recent activities, with summaries of key issues raised. S<SMALL>TEM</SMALL> C<SMALL>ELLS</SMALL> T<SMALL>RANSLATIONAL</SMALL> M<SMALL>EDICINE</SMALL><I>2017;6:1956–1962</I></P>
Recognition of Individual Holstein Cattle by Imaging Body Patterns
Kim, Hyeon T.,Choi, Hong L.,Lee, Dae W.,Yoon, Yong C. Asian Australasian Association of Animal Productio 2005 Animal Bioscience Vol.18 No.8
A computer vision system was designed and validated to recognize an individual Holstein cattle by processing images of their body patterns. This system involves image capture, image pre-processing, algorithm processing, and an artificial neural network recognition algorithm. Optimum management of individuals is one of the most important factors in keeping cattle healthy and productive. In this study, an image-processing system was used to recognize individual Holstein cattle by identifying the body-pattern images captured by a charge-coupled device (CCD). A recognition system was developed and applied to acquire images of 49 cattles. The pixel values of the body images were transformed into input data comprising binary signals for the neural network. Images of the 49 cattle were analyzed to learn input layer elements, and ten cattles were used to verify the output layer elements in the neural network by using an individual recognition program. The system proved to be reliable for the individual recognition of cattles in natural light.
The Identification of Japanese Black Cattle by Their Faces
Kim, Hyeon T.,Ikeda, Y.,Choi, Hong L. Asian Australasian Association of Animal Productio 2005 Animal Bioscience Vol.18 No.6
Individual management of the animal is the first step towards reaching the goal of precision livestock farming that aids animal welfare. Accurate recognition of each individual animal is important for precise management. Electronic identification of cattle, usually referred to as RFID (Radio Frequency Identification), has many advantages for farm management. In practice, however, RFID implementations can cause several problems. Reading speed and distance must be optimized for specific applications. Image processing is more effective than RFID for the development of precision farming system in livestock. Therefore, the aim of this paper is to attempt the identification of cattle by using image processing. The majority of the research on the identification of cattle by using image processing has been for the black-and-white patterns of the Holstein. But, native Japanese and Korean cattle do not have a consistent pattern on the body, so that identification by pattern is impossible. This research aims to identify to Japanese black cattle, which does not have a black-white pattern on the body, by using image processing and a neural network algorithm. 12 Japanese black cattle were tested. Values of input parameter were calculated by using the face image values of 12 cows. The face was identified by the associate neural memory algorithm, and the algorithm was verified by the transformed face image, for example, of brightness, distortion, noise and angle. As a result, there was difference due to a transformation ratio of the brightness, distortion, noise, and angle. The algorithm could identify 100% in the range from -30 to +30 degrees of brightness, -20 to +40 degrees of distortion, 0 to 60% of noise and -20 to +30 degree of angle transformed images.
Kim, Dong Hyeon,Amanullah, Sardar M.,Lee, Hyuk Jun,Joo, Young Ho,Han, Ouk Kyu,Adesogan, Adegbola T.,Kim, Sam Churl Asian Australasian Association of Animal Productio 2016 Animal Bioscience Vol.29 No.9
The present study evaluated the effects of different cutting height on nutritive value, fermentation quality, in vitro and in vivo digestibility of whole crop barley silage. Whole crop barley forage (Yuyeon hybrid) was harvested at height of 5, 10, and 15 cm from the ground level. Each cutting height was rolled to make round bale and ensiled for 100 days. After 100 days of ensiling, pH of silage was lower (p<0.05) in 5 cm, but no difference between 10 and 15 cm of cutting height. The content of lactate and lactate to acetate ratio were increased (p<0.05) in 5 cm of cutting height, whereas the acetate content was higher (p<0.05) in 10 and 15 cm than that of 5 cm cutting height. Aerobic stability was greater (p<0.05) in silages of 10 and 15 cm of cutting height. Three total mixed rations (TMR) were formulated with silages from the three different cutting heights (TMR5, TMR10, and TMR15) incorporated as forage at 70:30 ratio with concentrate (dry matter [DM] basis). In vitro dry matter digestibility was higher (p<0.05) in the TMR5 and TMR10 than that in TMR15, whereas in vitro neutral detergent fiber digestibility was higher (p<0.05) in the TMR10 and TMR15 than that in TMR5. Concentration of $NH_3-N$ was highest (p<0.05) in the TMR10 followed by TMR15 and TMR5. Total volatile fatty acid was decreased (p<0.05) with increased cutting height. The digestibility of DM and neutral detergent fiber were highest (p<0.05) in TMR15, than those in TMR5 and TMR10, whereas acid detergent fiber digestibility was higher (p<0.05) in TMR5 than that in TMR10. The results showed that increasing cutting height, at least up to 10 to 15 cm, of whole crop barley forage at harvest (Yuyeon) may be beneficial for making silage for TMR formulation and increasing digestibility of DM and NDF.
Le, T.D.,Kim, J.H.,Hyeon, C.J.,Kim, D.K.,Yoon, Y.S.,Lee, J.,Park, Y.G.,Jeon, H.,Quach, H.L.,Kim, H.M. The Korea Institute of Applied Superconductivity a 2016 한국초전도저온공학회논문지 Vol.18 No.4
The high temperature superconducting (HTS) contra-rotating propulsion (CRP) systems comprise two coaxial propellers sited on behind the other and rotate in opposite directions. They have the hydrodynamic advantage of recovering the slipstream rotational energy which would otherwise be lost to a conventional single-screw system. However, the cooling systems used for HTS CRP system need a high cooling power enough to maintain a low temperature of 2G HTS material operating at liquid neon (LNe) temperature (24.5 - 27 K). In this paper, a single thermo-syphon cooling approach using a Gifford-McMahon (G-M) cryo-cooler is presented. First, an optimal thermal design of a 1.5 MW HTS motor was conducted varying to different types of commercial 2G HTS tapes. Then, a mono-cryogenic cooling system for an integration of two 1.5 MW HTS motors will be designed and analyzed. Finally, the 3D finite element analysis (FEA) simulation of thermal characteristics was also performed.